SU653553A1 - Soil strength testing method - Google Patents

Claims (2)

The invention relates to a method for studying the strength properties of soils in natural composition using a rotational slice method. There is a known method for investigating soil by the method of rotational slice by setting the device to the required depth using pressure transmitted from the surface to the support rod 1. The closest to the invention of the known methods is the method of investigating the strength properties of soils by the method of rotational cutting with a retractable wing tip 2}. The disadvantages of the known methods are the low accuracy of the results. The purpose of the invention is to improve the accuracy of obtaining the strength properties. This is achieved by placing the wing tip into a recessed cylinder and rotating it together with the latter, and then testing it with separate rotation of the sleeve and the wing tip extended from it. The method is carried out as follows. The impeller, placed inside the cylindrical yoke, is pressed into the ground and rotated together with the yoke. In this case, a supersonic torque value is obtained that corresponds to the shear resistance along the end surface of the cylinder together with the ground friction force along the side surface of the yoke. Then KE lpchatku nominated from the cylindrical holder and rotate again. As a result of the second measurement, the total torque is obtained, which corresponds to the total shear resistance along the horizontal end surface and along the vertical lateral surface of rotation. After that, rotating the cylindrical yoke separately, the amount of friction of the soil along its lateral surface is determined by the amount of torque. The difference in the values of the first and last measurements will give the torque value corresponding to the ground resistance to shear along the end surface of the cylinder. The difference in the values of the second measurement and the obtained value gives the torque value corresponding to the shear resistance along the lateral surface of the cylinder. Thus, with this method, separate shear strength values are obtained in the horizontal and vertical planes, as well as the strength of the ground friction along the side surface of the yoke. The latter indicator provides an additional opportunity to predict the magnitude of the friction force along the side surface of the piles. The drawing shows a device by means of which the proposed method is carried out. The device contains KE blade tip 1 with a rod 2 having a protrusion 3, a cylindrical holder 4, an adapter 5 with a protrusion b and grooves 7 and 8, a spring 9 and a screw 10. The device operates as follows. After pressing the device into the ground, the rod 2 is reported to rotate. At the same time, the protrusion 3 interacts with the wall of the groove 7 and the cylindrical holder 4 rotates together with the tip 1, shearing the soil along the face of the cylinder of rotation 8, as a result of this operation, a total value is obtained that includes the resistance to shear along the face of the cylinder and the force of the side surface rubbing we Then, moving the rod 2 upward and withdrawing the protrusion 3 from the groove 7, turn it clockwise at a certain angle. When the step 3 comes out of the groove 7, the plate spring 9 is bent. After that, applying an axial load to the rod 2, they sell the wing tip 1 deeper, pushing it out of the cylindrical holder 4 for a certain interval so that the protrusion 3 passes through the groove 8, stops against the protrusion 6, rotating the rod 2, rotate the wing tip 1. At the same time, a total amount of resistance to shear of undisturbed soil along the lateral and end surface of the cylinder of rotation is obtained. Turning the wing tip 1 further, first, the total amount of resistance to shear of the broken ground along the lateral and end surfaces of the cylinder is obtained separately, and then in combination with the ground friction force along the lateral surface of the cylindrical yoke. The method allows to obtain the shear resistance along the lateral surface of the cylinder, the shear resistance along the end surface of the cylinder, the total resistance of the damaged soil along the lateral and end surface of the cylinder, and the frictional force along the lateral surface of the cylindrical yoke. Claim Method The method of investigating the strength properties of soils by the method of rotational slice with a retractable wing tip, characterized in that, in order to improve the accuracy of the obtained strength characteristics, the wing tip is placed in a cylindrical holder recessed into the ground and rotated together with the latter, and then tested with a separate rotation of the holder and the wing tip extended from it. Sources of information taken into account in the examination 1. The author's certificate of the USSR 482673, cl. G 01 N 33/24, 1973. 2. USSR author's certificate number 243537, CL E 02 D 17/142, 1968.